Asgionor



March 19, 1929. v M, GQLDBERG 1,705,662

' CASH nsels'rsn Filed Sept. 26. 1923 v Sheets-Sheet 1 FIG.1A a

Maximilian M. Eoldber Marh 19, 19 29. GOLDBERG CASH mans-ran FIG.1B.. 85

Filed Sept. 26. 1923 7 7 Sheets-Sheet 2 March.19,'l 929; M. M.. GOLDBERG Q 1,705,662

CASH REGISTER Filed Sept. 26, 1923 '7 Sheets-Sheet 5 ww/wtoz Maxlmllmn M. oldberg By W March 19, M. M. GOLDBERG CASH REGISTER '7 Sheets-Sheet 4 Filed Spt. 2e. l923 Maximilian Coldbcr By March 19, 1929. M GOLDBERG CASH REGISTER Filed Sept. 26? 192.3 7 Sheets-Sheet 5 March 19, 1929.

M. M. GOLDBERG CASH REGISTER Filed Sept. 26, 1923 '7 Sheets-Sheet 6 oldberg JOHN DOE COMPANY March 19,1929. M. .M. GOLDBERG CASH REgGISTER Filed Sept. 26. 1925 7 SheetsSheet 7 .Goldber; I

' s 15-themachine. v

*Afurt-her bjmt f ithis'invgntipn isto I y semml transactions j fenfened in alrgcoiidingltqtalizer age-1 adde 1 and a total,pi'inted a, id ,coincidentswiththezoiisainm operation all .amg mts previously .en-

P atelita Mar. 19, v

".1,70 ,'6@z. RATE-NI QQFFI r IAN m. ,aqr.pnprgq,fbr 341mm QHVIQLASQIGNYOK-S' im-unsnn ssxmtmms, "row 1: NATIONAL c481 melanin comrausr, c nnamon, x10; AOOBBORATION.

7 1 j BEGI STERf i fmiiau m qis t ser 26, 1923. Serial Np.

-- This inyentiQn lirglat ss l 'td casli registers andsisi illustrated in. connsctiunz witb. a m; chine of xt hel type sh m; :sndvd sqr b d in Batters. Patent vof {he UriitgdQfitatis issi d' n itpfli simas C rney, May 235; 89 g nd numbmd 4 and. als in 1 nited; S ates 653 issued .M ehil-i ,921 g hel Tprihipal; qbj e ct of this ii vgnt-ion ,is ioizto provide anscwunting m'achin mechani Letters-Paten t J IQ Pein rN 1,37, 5-

cfolvrscording- Qn ,aniissi i g st l ipgitems arid totalsof itemsmgi thmwith desirablewori .flingif qm; electros, and SiII IBItQI IQQUSIy 'recording a.;tot'al; upon w fa ol sl s r p; ret iined n provide means; what nte r ed therein are ,rem0v d thQI'QfIOIXL apd -p r sh nghtgto mmposi ion- Anotherjobjectiofi ith sifnyenticn; is sto pro- .vide 0 whee sfrom tha total izep, i With these andin idg ml objec tsiqview,

the iniven iqn onsis s o i entain xwv lv irfeastures: of construction and combinations of pants, theessential alements of whigh are set 0 forth in appended claims and; i a p eferred;

- .f0 1'm on'embodime m {Of which is han n r 1 specification; i L

015 said drawings: I

a; )la'n- View ofithemaqhins;

3 wheel atirii-ng mwl mainland a mmachine taken tmathe line 3-+30f 1 1 wheel. and imposition to set llp thfl total type whee-ls.

Figwfi .'s a

. mechanism. w

Fig 6 .is it detail ,sfictionnlgview 0i the, totalizer showing the ;mqc'hn nism f01f (ii-s n U 7 rights 34,1;o11negfied to the rear suds of the .y a s-p oy ded with n tch 1 for 7 asngsging'i ods fiscarrie-sl by Husk members iggigingsthe anxiliiufjy trans er mechanism- 7 vE' J n-UBG atrmisyersj Bpctmm l view dither g V I ,l m ker member for each fl nemnmtmn ,i ingchmmta ken, nmtheli-ne pf Eig g l ifl} sitivemeans fur set ng he W liyp 1 *Fig. 3;is atDflI SYBLSQiS QUQI E yiew of the I v i a key i30s atrang dsin,dehpmi ena igre s Fig A is; a demil sqct ional vie'w gf' they Iotdhzen taken to :thsfright ofi thfitaction '.s ats itli l pi n k yi p 32 i p rdetail sectional view, of the; .rtotnlizer"v showing the auxiliary transfer Fig 9,is aldetail vijfiwof; the 'receipt fged ml dr v ng g alrand segment H Fig. 10 i an l v tiv al fviswofjth rece p ,pr nt g merc a s i h i v Fig. 11 is a detai1 view-0f the total type wheel actuating ears.

Fig, 12 is a etail vvie w of the dat eia nd j m sscutiv l n mber. tdeviqei Egg-113's detail yiew oft he autographic paper-winding device T s I a 1?ig .14 is a, de ail ie of he ce p prin ng imp SsiQn V nsani 1 F I15, is.. a detail viewot emechanism ,,fai; mcking "the tgfializer gngaggment w -lim s: tqtii j yp Whe l set ng meqhan s 7o =;Eig.,l6' sh ws i a. (fragmen ary po ion, hegau pgitsphicstrip; R g-.1 a viewiof xe eiptsis ii dby the m c in I Fig. 181 is; a detail View, of the) t q talizer 1 yenwtationipr si tive Plsfi v Fig; 20 Tisafd et ail ,of, a; art of the mechanism bmittedgfr m Eig; 9. L P 1 Fig. .21. ishQwsiiis I tQtalizer in its engag d Ith-xeS t Li gL a in, itsrb sking pos i mqun s va q alizer and. or Print g t swni nisswn str pai ans fo printing tlie QtqtgL of saidhmmi ts on said issuing g s f sti'ip"'mid alsdon a'record st-rip rets i ed in Figs. 1 andllfitakenfiogether constitute M 9O ma h nei andnmeshani mi ofr i d pa s -a ifeirinsesp cial Fi 1 5 3,

A L nqiinjleii y type f, a h .n

asi su 111i are {p voted Q n a t a rse PQ I c irniedyby th side fram Of h mac in it thfeirirjear endsrs n c e osc opw les Well kn wniin-thwr r v i 'sars nds of tli k ys uppjq xfi b indicamrs 3,3, whichwhen t hgjkeys are op- :e atdi i b mised and etiai iedn i p \position n,ami n shw l kllQWIl i th art '3fz'jsifipported on; a shaft 38; Thre" is a g j group of keys, and each of themembers is clockwise" and cause the"gear to move in operatively connected to its registering seg' ment or totahzer actuator 39.' The notches in the uprights34 are located to transmit amounts of movement to the actuators proportionate' to, the number of units represented by the keys to which the uprights are connected.

Operation of an amount key causes a cam shaft '40 to make one complete revolution. The mechanism for driving said shaft is not shown here but is clearly illustrated and described in the Von Pein patent previously referred to. I

Totalizer. I

The amounts represented by the keys depressed, areentered in a totalizer 45 (Figs. 3 and 4), which is of a well known type. The totalizer elements comprise pinions 46 rigid with the gear wheels 47 and other necessary elements supported on a shaft 48.

The totalizer is rocked into mesh with the actuators by a cam 49-secured to the shaft 40 and cooperatingwith two rollers carriedon a bell crank lever 50 which is loosely mounted on a'rod 51 and connected .to the totalizer by a pin 52 normally engaging the bottom ofanangular slot 53 :(see also Fig. 20), formed in the bell crank lever and a straight slot 54 (see'also Fig. 19), in a plate 55 which is rigidly'secured to the totalizer. The pin 52 is mounted in a link56 pivoted at 57 to an arm 58 which will hereinafter be described.

In addition to theregul'ar elements in the totalizertl ere provided a shaft 63 upon which are freelyimounted gears 64 meshing with the gear wheels 47. These gears are for the purpose of connecting the totalizer elements with mechanism to set up total type wheels to printthe amount accumulated on the totalizer, all be described. p

. In a. total printing elements are returned to their normal or zero position by rotating the shaft 63 1629 in a counter-clockwise direction. For each gear 64 there is pinned to theshaft 63 an arm 65 carrying a spring-actuatedpawl 66 which of which will hereinafter cooperates with a flat sided pin 67 to move .the gear 64 and turn the correspondmgto- 'talizer element to zero position.v

With a totalizer element in the zero position, the; relation between the pin 67 and pawl 66 is such that the gear'64 will not be moved when the shaft 63 is rocked. But when a totalizer element is advanced one position, the pin 67'will be moved ahead of the end of pawl 66 so that the pawl will engagethe flat side'of thepin and move the gear 64162, or nine divisions of thetotalizer wheel. When a totalizer' element is advanced two or more positions, the pawl will engage the P111167 as it moves counteroperation the totaliz er 9 unison with the pawl the reset movement. I

Each gear 64 (Figs. '3, 4 and 5) is proremainder of the vided with two stop pins 68 placed 180 apart to engage a plate 69 to stopthe totalizer element in its zero position during the total printing operation. This plate is secured to a bracket 70 supported by a cross member 71 of the machine frame. The

shaft 63 (Figs. 3*and 7 has-securedto one end a disk 72 which carries a roller 73 cooperating with a groove 74 in a companion disk75 pinnedto a shaft 76. This lattershaft is supported by the bracket 70 and a printer frame 77 (Fig. 13). Securely mounted on the shaft 76 and near the right hand end is a gear 78 which meshes with a segment-arm 79 freely mounted on a rod (Figs. l and 8). "This segment arm is 76 to be mounted in rigid supports'while the shaft 63 is mounted in a rocking totalizer frame. The shafts and couplings shown in operative relation to each other.

Over-rotation of the totalizer wheels in adding operations, causing'a tripping of the transfer elements of the wheel of next high er order as a totalizer wheel moves to the ninth position, is prevented by a plate 91 secured-to the plate 69' (Figs. 3 and 21).

Thisplate has arms which are engaged by the pawl 66 as the totalizer-moves into engagement with the actuators, thereby causing the pawls 66 to bear upon the pins 67 (Fig. 5) to produce, a retarding effect upon the totalizer wheels as they move into the ninth position...)

The Geneva transfer mechanism (Fig. 5) is disengaged from the totalizer elements during resetting operations by two cams 92 and 93 (Fig. 6) secured on the shaft 63 and engaging rolle'rs94 and 95 carried on a member 96pivoted onathe shaft 48. Projecting laterallyfrom this member 1S3, pin 97. engaging aslot in a yoke member 98 pivoted on a rod 99 and supporting. parts of the transferv mechanism. The yoke member 98 supports a rod 100 (Figs. 1 4, 5 and "6) which is adapted to engage the regular transfer. pawls 101 to prevent them from tripping into transfer position when I the totalizer is reset to zero.

The totalizerwheel shown in Fig. 4 is for the fractional group of-keys shown in Fig. 1 and has a ratchet wheel 102 with only four divisions, while the remainder of the are totalizer wheels are-equipped with regular} ratchet wheels often divisions each.- A

7 unit on the secondwheel.

complete rotation of- V fractional causes the, transfer mechanism toenter. one

' -jprinting Wheels 145 (Fig. for printing on thereceipt and a second set of total type Wheels 146 (Figs. 1 8 and for 1 Item printing. 7 I -,The. totalizer actuators are normally in meshwith gears 110. (Fig. 3) which'areioperatii'ely connected with the item type wheels 111 (Fig. 10) by telescopic sleeves to adjust the type wheels to print the items 112 on the issuing receipt 113 (Fig. 17). i vThe cam shaft 40 (Figs. 3

and 8) extends through the right hand side frame. -A cam "114 fixed to this shaft cooperates with a vysprnig-pressedpivoted impression V hammer supporting. arm 115. whichuis oifset-toextend z teni type Wheels 111.

printedupon the receipt, 113.

from a supply roll and under a I (Fig. 10) between the type and the impression platens. Before anitem is printed the issuing strip is fed forward through anopening intheprinter frame J77 (Fig. 10

' Byfineans of this mechanism the; items 112 (Fig. 17 are The receipt 113 is severed guard 116 printing wheels one space by a roller 117cooperatingwith a second roller. 118 carriedon aspring-pulled arm 119.. The r0ller117 isrotated by a pawl 120 engaging a ratchet (not shown) secured .itothe roller. The pawl 120 is carriedfona An inking ribbon124 passes between the [bell crank arm .121. which is secured to the might hand trunnion 122 of the key coupler."

The usual. spring-actuated pawl 123 cooperates with said ra'tChetto prevent a retograde movement of tlie'feeding'rollerfl I l 1 type carriers and the -paper,l over the" usual guide. pinsand partly around a, feed roller.

125-which is rotated by the usual pawl and; ,ratchetfdevice actuated bya linlt*126--'con'- nected to the bell crank arm ,121. The rib is hcldvtafitiby fl'roller supported by an ,arm127; V p

At the time theimpression hammer car: ried by thearm 115 (Fig-.10) is cooperating witlitheJitem type wheels ll1 toprint an item :the usual alining 'n einber 128jis rocked mto engagement; 1

the. alining disks; 129.

cured toth'e typewheels. i This al'iningmem-j her, 128 is pivoted onfarod130fand has' a.

bifurcated arm 131 engaging. apin carried by an arm 132 which is secured to rod 133 supported bythe frame of" the machine.

There is also secured to the rod1=133,(Fig. "8) a two-arm plate 134 which engages a ram 135' tooperate the aliningmmber 128. p 7 I Total. printing.. I A tot al of the items112 printedion the re ceipt- 113 (Fig. .17) isaccumulated on the totalizer and then a' sep'arate operation .is prmted 'on the'receipt and also uponthe; strip 144 16) retained within record 'intooperative relation with the i-rom' a strip fed the machine. Forthis purpose, mechanism is provided for positively setting up total printing on thereeord-strip 144 (Fig. 16). For-this purpose also, the gears 64 (Figs 3, .4, Hand 20) mounted in thetotalizer frame, andconstantly' in mesh with the totalizer elements, as hereinbefore described, are rocked into engagement with gears 147 secured to the left hand ends of telescopic: sleeves 148 supported in the bracket andthe printer frame 77 and having secured to their right hand ends gears 166 (Figs. 10 and 11) which mesh with intermediate gears 164. These intermediate gears are also'in mesh with gears 165 which are secured to the total printing Wheels 145 I freely mounted on ashaft 160. I

During the total printing operation and previous to resetting the totalizer elements to zero,

angular slot 53, being in the bell crank arm 50, Whichzis held rigid during the total printing operation, guides the pin 52 so that its the gears 64 and 147 in mesh during the time the totalizer elements are reset.

The arm 58 which carries the link 56 is freely mounted. on a rod 151 andis yoked to an arm152 (Fig/15) carryinga roller engaging aslot m a yoked member 153 p voted on the rod 7 6. This yoke member 153 CRT-i ries a roller 154 engaging the bifurcated end of a bell crank arm'155 pivoted on the. rod

85. The lower end of this bell crank arm carriesa roller 156 engaging a cam race 157 formedinthe side of a gear 158 pinned to.

the shaft 84. j

the pin 52 (Figs. 3, 19 and 20) is moved upward'in the slots 53 and 54. The

"movement in the straightslot 54 inthe plate 1 55. secured to the totaiizer frame, rocks the "Vi'th the gears 64 and 147 (Figs. 4 and 19) inmesh, the totalizer elements/are-reset to zero I osition.v This causes thetotal printing whee s 145. (Fig. 10) to beset to positions corresponding to the amount accumulated on the'totailizer before it is reset. After the total printing wheels-have been adjusted, j they are retainedby an alining member 159 (Figs. 10 and 11) secured to theshaft 160-- This a-lining member has projections 161 en- 'gag1ng'sl0ts162 in'plates 163'secured to the gears 164. The shaft 160 (Figs. 8. 10, and 11) is rocked by an arm 17 0 pinned thereto.

fThis arm carries a pm 171 engaging abifurcated end ofa lever 17 2 pivoted on a pm 17 3-supported by the side frame. The lower end of they lever 172 carries a roller 174 Fig. 2) engaging av cam rac'e'17 5 formed in the sideof av disk 176 pinned to a shaft 188.

\Vhile the total, printing wheel aliner is in engagement, the tot-ahzer 1s rocked out of engagement wlth the gears 147 (F 1g. 4).

The elements of the totalizer now being in their Zero positions, the totalizer is in condition to receive items of the next transaction.

Duringthe time the aliner 159 is retaining the total printing wheels in adjusted positions, impression platens are operated to print the total 178, the horizontal line 179, date andconsecutivenumber 180, and any desired matter from two electros, upon the receipt 113 (Fig. 17).

Platen hearing' neinber 181, (Figs. 10 and 14) which prints the total, horizontal line, and the name of the company, shown on the receipt is secured toa downwardly extending arm 182 pivoted to a lever 183 which is fulcrumed on'a stud 184 projecting from the printer frame. The lower end of the lever 183 carries a roller 185 cooperating with a cam race 186 to operate the platcn bearing member 181. The cam race is formed in the Outside face of a gear wheel 187 pinned to a shaft 188. i Another platen bearing member 189 which prints the consecutive number, date, and words characterizingthe receipt, shown on the receipt, is pivoted to an arm 190 secured to a hub 191 freely mounted'ona stud 192 supported by the printer frame. cured to the other end of hub 191 is a threearmed lever. 193 which, in addition to the hub, is connected to thearm 190. by a rod.

194. The downwardly extending arm of the lever 193 carries aroller 195 cooperating with a cam race 196 formed in the inside face of the gear 187 to operate the platen bearing member, 189. V

The date printing wheels 205 *igs. 10

I and 12) and the consecutive number printing wheels 206 are mounted in aframe member 207 secured to the printer frame. The date wheels areset by the usual setting knobs 208.

are operated by the usual :step-by-step pawl and ratchet mechanism.

previously described.

hen printing a total it is necessary to feedthe issuing strip or receipt 113 (Fig. 17) at two different intervals. The first feeding is for the purpose. of. moving the last printed item toward the front of the printer and past a member 212 (Fig. 10) which prints the horizontal line 179 on the receipt. The second feeding of the strip is after the total is printed to move the strip forward to the severing position.

During these feeding operations the feed roller 117 (Fig. 10); which is pinned to a The consecutive number wheels An oscillating frame 209, which carries the consecutive. number feed pawl, has a laterally extending pin 210 which is connected by a link 211 (Figs. 8, 10 and 12) to the segment arm 79 the receivin roll in shaft 213 is rotated by a pawl 214 (Fig.

whichcooperates with a ratchet 215 pinned to the shaft 213. The; pawl is carried on an arm 216 pivoted onthe shaft 213 and rigidly connected to a gear 217 (Fig. 9) in mesh these sleeves are the printing wheels 146' provided to print on the total record strip 144 (Figs. 8 and "16). e

The total is printed upon the total record strip by means of a platen 230 carried by a lever 231 fulcrumed on the shaft 63 and connected by a link 232 to the three-armed lever193 (Fig. 10). r The total record paper 144 is of sufficient width to provide ample space for written inemoranda in connection with the printed total. This strip is fed from a supply roll .233, through a guide 234 between the printing wheels 146 and the platen 230, over a writing table 235, around a roller 236 and onto a receiving roll 237. The paperis-ke t taut by a spring tension plate 238 freey mounted on a stud 239 supported bythe printer frame. The 'supplyroll 233 is supportedby a stud 240 projecting from the printer frame. A spring-pressed washer 241 (Fig. 1 maintains the supply roll in its lateral position with the left hand end of the roll bearing againsta retaining nut 242.

The receiving roll 237 (Figs. 1 8 and 13) is supported by an arm" 243 pivoted on a rod 244, the left hand end of which is supported by the bracket and the right hand end by theprinter frame 77. The arm 243 is held in normal positionby a springpulled latch 245 having a slot 246 engaging a pin 24 7 projecting fromithe arm. To remove the paper' from the roll the latch is disengaged from the pin 247, permitting the arm 243 to .be moved clockwise to a 'posi tion; wherein a pin 248, also carried by the arm'243, engages the slot 246 and retains a its elevated position while the paper is being removed.

During each total printing operation; the

receiving roll 237 ig. 13)'receives a clock wise movement to w nd the paper and properly'space the printing. Secured to the roll is a pinion 249 normally in=mesh with a gear 259 freely mounted on ashaft 251. Fastened to the gear is a ratchet wheel 252 which-cooperates with a spring-pulled pawl 253 to move the gear 250 counter-clockwise. The pawlis pivoted on an arm 254 secured to the shaft 251. The shaft is rocked by an arm 255 connected a'link "256 to a segment lever 257 fulerumedfon .a=, stud- 85. The segment lever ca rries rollers 258 and 259: cooperating was camsQGO andj 261 se'-- pawl" 262. ire vents'retrograde movementofthe reccivingroll mechanism! An inking ribbon'266 "(Fi s) a e. be-

tween" the printin --whee1s""146*and the record-strip 144. f his ribbon passes over guide rollers and partial'ly around a 1 feed;

ing roller-267 which is movedin a' counterclockwise directionbya pawl 268ycooperate ing with a ratchet' wheeh269secured to the roller; The, paw-l is pivoted fon a pi'n 270 mounted in thesegmentlever 80. Agretainingpawl meted 1 272: prevents retrograde movement? of 1 the-"feeding roller l 267. Also-mounted on the s tud{272 is*a frame carrying} a ribbon tension roller i 273'." vDuring the timethat the impressionwis n made upon the record-strip by the platen 230, an alining member 274 isin10ved iinto engagementa'with *notchedfplates; secured .to the sides of the printing wheels 146. UTliis .alining-member is pivoted on stud '275and isopera'ted' by ali11k5276 the 'up eruend of which is in'votally connected ito t e alining member 'and'the-lower end to swarm: 27 7 pinned to rod l',*whichy is rocked the total printing operation as previously described:-

. After the totalis printedupon thelreceipt an d the a record StIiP t he alining member 1159 (Figs. '10and 11) -is-"disengaged* from*the1 plates 163 and both groups" of total "pria'iting wheels; are returned to theirzeraor normal I positions by rotatinga shaft 282 upon; which the gears 164 are rotatahly mount d; This shaft is first rotated countenclockwise and;

' then clockwisebythe- 'segment lever 257 (Fig; 13) which is in "meshsiwithaa pinion 283 pinned to the shaft 282 The shaft 282 (Fig. 11) has a groove which, as the shaft moves clockwise,yen-

gages the ends of spring-pressed pawls 284. carried on the wheels l64fand causes these 1 wheels and theirassxiciate wheels to return to their'normal positions. Each gear 166 has a laterally projecting pin 285 which cooperates with a slotted bar 286to stop the gears 166 and the rotating members associated therewith in theirnormal position.

' Dm'oing V p p The total printingmechanismmay beoperated by a crank 291 "(Fig.lflOf This crank is freely mounted upon a,.stud;292

and is suitably connected tola pinion 293 meshing with the gear" 1"87 pinned to: the

driving shaft 188.." g

This mechanism may also .be operated" from an electric motor, of the'same construction .as that shown in'the Von Pein application, Serial No. 458 ,5 10 and in Letfollow.

t ers Patent of the United States to Ketter- .mg and Chryst, No. 1,144,418,. granted'June 29 19115 "Only the %clutch member 294 (Fig.

8*) of' the motor is: shown inthis applicm tion. *A' lock lever 295, similar .to. the loc'k moved clockwise by a vspring296," and arrests the motor when moved counter clockwise b'y,

a-pin297 mounted in itheogea'r 221.- Y Thi's 'pineooperates with aprojection 298 on a link- 299iconnected to theloeki lever-.295 and.

guided nIa stud 300;" p

f The' sprin 296 is connect-ed tothexframe lever in saidpatent, releases the motor'when and te-theishdabl' mounted link; The link is normally held the" position shown in Figv8ibyaspring-actuated catchn301 engaging beh'ind a stud302on theframe'of theamachi'ne. Anarm:3() 3,:also spring-actu ated,is .providedwith a; lip 304 in engagement with theend of the .hookgportion of then-"catch: 301"; A camh member 30,5, piv- I oted ion' a motor or release1key;306 (Figs. 1F 'and' 8); is provided with a laterally directed misc-71in alinement with the lipy304 This catch: member is=also provided with a; shouldei-J; 308 to cooperateewith the stud-.302.

VVlhen-tl1ecatch member 305 is moved downwardlyby' depressing. the motor: key, the.

catch'i30lnis: released-and the lock lever 295 is removed to releasing position. WYhen. the lock lever is IBEUUHGdmtO -lo'cki-ng position the parts move backitothe position shown inrij-Figl; 8. A tension springfi809 holds the catchaagainstthe stud302.and'the motor I keyrisinits nonmal position. Axlink 3210,.

which; :issonl-y-partiallyi shown; connects the anisim to sprevent a: simultaneous. operation of item keys and, the motor key. All of this. mechanism 1 is substantially identical .thnti'shown in 1 the application referred tom.

The motor control key carries a pin 311'which cooperates with an arm 312 pinned to a rod 313,-to .which is also secured the receiving roll arm latch 245.; This mechanism provides an interlock between the motor key and the receiving roll arm latch. When the.

latch isout of normal position the motor key is inoperable,- and when the motor key of themotor keyr While the; form of mechanism herein shownand described is admirably adapted to fulfill the objects primarily stated, It is to beunderstood that it is not intended to confine the invention to the one form or embodiment herein disclosedyfor it is susceptible; of..-emb0diment in various forms, all coming within the scope of the claims which pivoted totalizer' Combination, a movable totalizer frame provided with a slot, a driving means provided with a slot, a rocking member operated by said driving means, a member engaging said slots,

and means for moving said engaging member to cause said totalizer frame to move.

. 2. In a machine of the class described, in combination, a totalizer, a totalizer frame provided with a slot, a totalizer actuator, a driving means, a rocking memberprovided with a slot and operated by said driving means, means connecting said slots, recording elements, and'means for moving said slot connecting means to cause said totalizer tomove in'to operative position with respect to said elements. r I 3. The combination of a totalizer, means for entering items therein, means for elearing said totalizer, a slotted member rigid with said totalizer, a second slotted member operatedby-said item entering means, and means cooperating with the slots in said members for rigidlyconnecting the same-and for causing relative movement between the same when moved during totalizer clearing operations. 30

4. In aimachine of the class described, a

frame, a reset shaft carried by saidframe, a driving shaft for said reset shaft, mounted in fixed bearings, .a driving pin carried by said driving shaft, and means'rigid with said reset shaft and provided with a groove concentric with the pivot of said totalizer frame, 'to'receive said driving pin. I 7; I

' 5. In a machine of the class described, in' combination, a movable totali'zer frame, a totalizer wheel adapted to be reset to Zero,

as saidelement moves into its nine position during the entry of amounts thereon.

7. :A rotatable accumulating element, a rotatable element geared thereto, a pawl for rotating said latter element, and means for exerting pressure oncsaidpawl to produce a braking effect onesaid second mentioned element as said first mentionel element moves into its nine position in accumulating itemsa f i 8,. In a machine of the class described, in

combination, a totalizer frame, a totalizer wheel having ten positions,'nan1ely 50? to 9, an actuator, means for engaging said totalizer wheel with said actuator, an osc llating shaft, a gearsupported by said shaft and in engagement with said totalizer wheel for rotating the wheel, and means cooperating with said gear to retard saldtotalizer o wheel inits movement into the nine position when engaged with said actuators 9. Ina machine of the class described, in combination, a totalizer frame, a totalizer wheel havingten positions, namely 0 to 9, anactuator, means for engaging said totalizer wh'eelwvith said actuator for adding amounts toothe wheel,,and means for retarding said totalizer wheel as it moves into its I lllIlQipOSlillOll when moved by said actuator.

" In testimony whereof I afiix my signature.

., MAXIMILIAN M. TGOLDBERG.- 

